Lines Matching defs:start
75 [clinic start generated code]*/
1212 [clinic start generated code]*/
1278 [clinic start generated code]*/
1370 because the start argument doesn't make sense in the context of
1372 returning a result, sum(seq2, start=sum(seq1)) may not equal the
1445 [clinic start generated code]*/
1775 [clinic start generated code]*/
1953 * range(start, stop) for given start and stop. It's used to compute the
1970 /* factorial_partial_product: Compute product(range(start, stop, 2)) using
1971 * divide and conquer. Assumes start and stop are odd and stop > start.
1975 factorial_partial_product(unsigned long start, unsigned long stop,
1997 num_operands = (stop - start) / 2;
2003 for (total = start, j = start + 2; j < stop; j += 2)
2008 /* find midpoint of range(start, stop), rounded up to next odd number. */
2009 midpoint = (start + num_operands) | 1;
2010 left = factorial_partial_product(start, midpoint,
2102 [clinic start generated code]*/
2153 [clinic start generated code]*/
2195 [clinic start generated code]*/
2224 [clinic start generated code]*/
2283 [clinic start generated code]*/
2365 [clinic start generated code]*/
2399 [clinic start generated code]*/
2416 [clinic start generated code]*/
2436 [clinic start generated code]*/
2669 [clinic start generated code]*/
2825 [clinic start generated code]*/
2905 [clinic start generated code]*/
2922 [clinic start generated code]*/
2939 [clinic start generated code]*/
2956 [clinic start generated code]*/
2973 [clinic start generated code]*/
3006 [clinic start generated code]*/
3107 start: object(c_default="NULL") = 1
3111 The default start value for the product is 1.
3113 When the iterable is empty, return the start value. This function is
3116 [clinic start generated code]*/
3119 math_prod_impl(PyObject *module, PyObject *iterable, PyObject *start)
3122 PyObject *result = start;
3570 [clinic start generated code]*/
3665 [clinic start generated code]*/
3772 [clinic start generated code]*/
3802 [clinic start generated code]*/